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Merge remote-tracking branch 'remotes/tinyusb/master' into pr/2253

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HiFiPhile
2024-04-26 17:57:53 +02:00
parent 4af67dd007 085bd3c9d5
commit 268cc19f44
827 changed files with 53101 additions and 16662 deletions
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13
src/class/hid/hid.h
View File

@@ -300,6 +300,19 @@ typedef struct TU_ATTR_PACKED
int8_t pan; // using AC Pan
} hid_mouse_report_t;
// Absolute Mouse: same as the Standard (relative) Mouse Report but
// with int16_t instead of int8_t for X and Y coordinates.
typedef struct TU_ATTR_PACKED
{
uint8_t buttons; /**< buttons mask for currently pressed buttons in the mouse. */
int16_t x; /**< Current x position of the mouse. */
int16_t y; /**< Current y position of the mouse. */
int8_t wheel; /**< Current delta wheel movement on the mouse. */
int8_t pan; // using AC Pan
} hid_abs_mouse_report_t;
/// Standard Mouse Buttons Bitmap
typedef enum
{

35
src/class/hid/hid_device.c
View File

@@ -46,12 +46,13 @@ typedef struct
uint8_t ep_out; // optional Out endpoint
uint8_t itf_protocol; // Boot mouse or keyboard
uint8_t protocol_mode; // Boot (0) or Report protocol (1)
uint8_t idle_rate; // up to application to handle idle rate
uint16_t report_desc_len;
CFG_TUSB_MEM_ALIGN uint8_t protocol_mode; // Boot (0) or Report protocol (1)
CFG_TUSB_MEM_ALIGN uint8_t idle_rate; // up to application to handle idle rate
CFG_TUSB_MEM_ALIGN uint8_t epin_buf[CFG_TUD_HID_EP_BUFSIZE];
CFG_TUSB_MEM_ALIGN uint8_t epout_buf[CFG_TUD_HID_EP_BUFSIZE];
CFG_TUSB_MEM_ALIGN uint8_t ctrl_buf[CFG_TUD_HID_EP_BUFSIZE];
// TODO save hid descriptor since host can specifically request this after enumeration
// Note: HID descriptor may be not available from application after enumeration
@@ -146,6 +147,19 @@ bool tud_hid_n_mouse_report(uint8_t instance, uint8_t report_id,
return tud_hid_n_report(instance, report_id, &report, sizeof(report));
}
bool tud_hid_n_abs_mouse_report(uint8_t instance, uint8_t report_id, uint8_t buttons, int16_t x, int16_t y, int8_t vertical, int8_t horizontal)
{
hid_abs_mouse_report_t report =
{
.buttons = buttons,
.x = x,
.y = y,
.wheel = vertical,
.pan = horizontal
};
return tud_hid_n_report(instance, report_id, &report, sizeof(report));
}
bool tud_hid_n_gamepad_report(uint8_t instance, uint8_t report_id,
int8_t x, int8_t y, int8_t z, int8_t rz, int8_t rx, int8_t ry, uint8_t hat, uint32_t buttons) {
hid_gamepad_report_t report =
@@ -166,11 +180,14 @@ bool tud_hid_n_gamepad_report(uint8_t instance, uint8_t report_id,
//--------------------------------------------------------------------+
// USBD-CLASS API
//--------------------------------------------------------------------+
void hidd_init(void)
{
void hidd_init(void) {
hidd_reset(0);
}
bool hidd_deinit(void) {
return true;
}
void hidd_reset(uint8_t rhport)
{
(void) rhport;
@@ -279,7 +296,7 @@ bool hidd_control_xfer_cb (uint8_t rhport, uint8_t stage, tusb_control_request_t
uint8_t const report_type = tu_u16_high(request->wValue);
uint8_t const report_id = tu_u16_low(request->wValue);
uint8_t* report_buf = p_hid->epin_buf;
uint8_t* report_buf = p_hid->ctrl_buf;
uint16_t req_len = tu_min16(request->wLength, CFG_TUD_HID_EP_BUFSIZE);
uint16_t xferlen = 0;
@@ -296,22 +313,22 @@ bool hidd_control_xfer_cb (uint8_t rhport, uint8_t stage, tusb_control_request_t
xferlen += tud_hid_get_report_cb(hid_itf, report_id, (hid_report_type_t) report_type, report_buf, req_len);
TU_ASSERT( xferlen > 0 );
tud_control_xfer(rhport, request, p_hid->epin_buf, xferlen);
tud_control_xfer(rhport, request, p_hid->ctrl_buf, xferlen);
}
break;
case HID_REQ_CONTROL_SET_REPORT:
if ( stage == CONTROL_STAGE_SETUP )
{
TU_VERIFY(request->wLength <= sizeof(p_hid->epout_buf));
tud_control_xfer(rhport, request, p_hid->epout_buf, request->wLength);
TU_VERIFY(request->wLength <= sizeof(p_hid->ctrl_buf));
tud_control_xfer(rhport, request, p_hid->ctrl_buf, request->wLength);
}
else if ( stage == CONTROL_STAGE_ACK )
{
uint8_t const report_type = tu_u16_high(request->wValue);
uint8_t const report_id = tu_u16_low(request->wValue);
uint8_t const* report_buf = p_hid->epout_buf;
uint8_t const* report_buf = p_hid->ctrl_buf;
uint16_t report_len = tu_min16(request->wLength, CFG_TUD_HID_EP_BUFSIZE);
// If host request a specific Report ID, extract report ID in buffer before invoking callback

60
src/class/hid/hid_device.h
View File

@@ -72,6 +72,16 @@ bool tud_hid_n_keyboard_report(uint8_t instance, uint8_t report_id, uint8_t modi
// use template layout report as defined by hid_mouse_report_t
bool tud_hid_n_mouse_report(uint8_t instance, uint8_t report_id, uint8_t buttons, int8_t x, int8_t y, int8_t vertical, int8_t horizontal);
// ABSOLUTE MOUSE: convenient helper to send absolute mouse report if application
// use template layout report as defined by hid_abs_mouse_report_t
bool tud_hid_n_abs_mouse_report(uint8_t instance, uint8_t report_id, uint8_t buttons, int16_t x, int16_t y, int8_t vertical, int8_t horizontal);
static inline bool tud_hid_abs_mouse_report(uint8_t report_id, uint8_t buttons, int16_t x, int16_t y, int8_t vertical, int8_t horizontal)
{
return tud_hid_n_abs_mouse_report(0, report_id, buttons, x, y, vertical, horizontal);
}
// Gamepad: convenient helper to send gamepad report if application
// use template layout report TUD_HID_REPORT_DESC_GAMEPAD
bool tud_hid_n_gamepad_report(uint8_t instance, uint8_t report_id, int8_t x, int8_t y, int8_t z, int8_t rz, int8_t rx, int8_t ry, uint8_t hat, uint32_t buttons);
@@ -268,6 +278,55 @@ static inline bool tud_hid_gamepad_report(uint8_t report_id, int8_t x, int8_t y
HID_COLLECTION_END , \
HID_COLLECTION_END \
// Absolute Mouse Report Descriptor Template
#define TUD_HID_REPORT_DESC_ABSMOUSE(...) \
HID_USAGE_PAGE ( HID_USAGE_PAGE_DESKTOP ) ,\
HID_USAGE ( HID_USAGE_DESKTOP_MOUSE ) ,\
HID_COLLECTION ( HID_COLLECTION_APPLICATION ) ,\
/* Report ID if any */\
__VA_ARGS__ \
HID_USAGE ( HID_USAGE_DESKTOP_POINTER ) ,\
HID_COLLECTION ( HID_COLLECTION_PHYSICAL ) ,\
HID_USAGE_PAGE ( HID_USAGE_PAGE_BUTTON ) ,\
HID_USAGE_MIN ( 1 ) ,\
HID_USAGE_MAX ( 5 ) ,\
HID_LOGICAL_MIN ( 0 ) ,\
HID_LOGICAL_MAX ( 1 ) ,\
/* Left, Right, Middle, Backward, Forward buttons */ \
HID_REPORT_COUNT( 5 ) ,\
HID_REPORT_SIZE ( 1 ) ,\
HID_INPUT ( HID_DATA | HID_VARIABLE | HID_ABSOLUTE ) ,\
/* 3 bit padding */ \
HID_REPORT_COUNT( 1 ) ,\
HID_REPORT_SIZE ( 3 ) ,\
HID_INPUT ( HID_CONSTANT ) ,\
HID_USAGE_PAGE ( HID_USAGE_PAGE_DESKTOP ) ,\
/* X, Y absolute position [0, 32767] */ \
HID_USAGE ( HID_USAGE_DESKTOP_X ) ,\
HID_USAGE ( HID_USAGE_DESKTOP_Y ) ,\
HID_LOGICAL_MIN ( 0x00 ) ,\
HID_LOGICAL_MAX_N( 0x7FFF, 2 ) ,\
HID_REPORT_SIZE ( 16 ) ,\
HID_REPORT_COUNT ( 2 ) ,\
HID_INPUT ( HID_DATA | HID_VARIABLE | HID_ABSOLUTE ) ,\
/* Vertical wheel scroll [-127, 127] */ \
HID_USAGE ( HID_USAGE_DESKTOP_WHEEL ) ,\
HID_LOGICAL_MIN ( 0x81 ) ,\
HID_LOGICAL_MAX ( 0x7f ) ,\
HID_REPORT_COUNT( 1 ) ,\
HID_REPORT_SIZE ( 8 ) ,\
HID_INPUT ( HID_DATA | HID_VARIABLE | HID_RELATIVE ) ,\
HID_USAGE_PAGE ( HID_USAGE_PAGE_CONSUMER ), \
/* Horizontal wheel scroll [-127, 127] */ \
HID_USAGE_N ( HID_USAGE_CONSUMER_AC_PAN, 2 ), \
HID_LOGICAL_MIN ( 0x81 ), \
HID_LOGICAL_MAX ( 0x7f ), \
HID_REPORT_COUNT( 1 ), \
HID_REPORT_SIZE ( 8 ), \
HID_INPUT ( HID_DATA | HID_VARIABLE | HID_RELATIVE ), \
HID_COLLECTION_END , \
HID_COLLECTION_END \
// Consumer Control Report Descriptor Template
#define TUD_HID_REPORT_DESC_CONSUMER(...) \
HID_USAGE_PAGE ( HID_USAGE_PAGE_CONSUMER ) ,\
@@ -408,6 +467,7 @@ static inline bool tud_hid_gamepad_report(uint8_t report_id, int8_t x, int8_t y
// Internal Class Driver API
//--------------------------------------------------------------------+
void hidd_init (void);
bool hidd_deinit (void);
void hidd_reset (uint8_t rhport);
uint16_t hidd_open (uint8_t rhport, tusb_desc_interface_t const * itf_desc, uint16_t max_len);
bool hidd_control_xfer_cb (uint8_t rhport, uint8_t stage, tusb_control_request_t const * request);

591
src/class/hid/hid_host.c
View File

@@ -39,22 +39,22 @@
#endif
#define TU_LOG_DRV(...) TU_LOG(CFG_TUH_HID_LOG_LEVEL, __VA_ARGS__)
//--------------------------------------------------------------------+
// MACRO CONSTANT TYPEDEF
//--------------------------------------------------------------------+
typedef struct
{
typedef struct {
uint8_t daddr;
uint8_t itf_num;
uint8_t ep_in;
uint8_t ep_out;
bool mounted; // Enumeration is complete
uint8_t itf_protocol; // None, Keyboard, Mouse
uint8_t protocol_mode; // Boot (0) or Report protocol (1)
uint8_t report_desc_type;
uint8_t report_desc_type;
uint16_t report_desc_len;
uint16_t epin_size;
@@ -67,81 +67,62 @@ typedef struct
CFG_TUH_MEM_SECTION
tu_static hidh_interface_t _hidh_itf[CFG_TUH_HID];
tu_static uint8_t _hidh_default_protocol = HID_PROTOCOL_BOOT;
//--------------------------------------------------------------------+
// Helper
//--------------------------------------------------------------------+
TU_ATTR_ALWAYS_INLINE static inline
hidh_interface_t* get_hid_itf(uint8_t daddr, uint8_t idx)
{
TU_ATTR_ALWAYS_INLINE static inline hidh_interface_t* get_hid_itf(uint8_t daddr, uint8_t idx) {
TU_ASSERT(daddr > 0 && idx < CFG_TUH_HID, NULL);
hidh_interface_t* p_hid = &_hidh_itf[idx];
return (p_hid->daddr == daddr) ? p_hid : NULL;
}
// Get instance ID by endpoint address
static uint8_t get_idx_by_epaddr(uint8_t daddr, uint8_t ep_addr)
{
for ( uint8_t idx = 0; idx < CFG_TUH_HID; idx++ )
{
hidh_interface_t const * p_hid = &_hidh_itf[idx];
if ( p_hid->daddr == daddr &&
(p_hid->ep_in == ep_addr || p_hid->ep_out == ep_addr) )
{
static uint8_t get_idx_by_epaddr(uint8_t daddr, uint8_t ep_addr) {
for (uint8_t idx = 0; idx < CFG_TUH_HID; idx++) {
hidh_interface_t const* p_hid = &_hidh_itf[idx];
if (p_hid->daddr == daddr &&
(p_hid->ep_in == ep_addr || p_hid->ep_out == ep_addr)) {
return idx;
}
}
return TUSB_INDEX_INVALID_8;
}
static hidh_interface_t* find_new_itf(void)
{
for(uint8_t i=0; i<CFG_TUH_HID; i++)
{
static hidh_interface_t* find_new_itf(void) {
for (uint8_t i = 0; i < CFG_TUH_HID; i++) {
if (_hidh_itf[i].daddr == 0) return &_hidh_itf[i];
}
return NULL;
}
//--------------------------------------------------------------------+
// Interface API
//--------------------------------------------------------------------+
uint8_t tuh_hid_itf_get_count(uint8_t daddr)
{
uint8_t tuh_hid_itf_get_count(uint8_t daddr) {
uint8_t count = 0;
for(uint8_t i=0; i<CFG_TUH_HID; i++)
{
for (uint8_t i = 0; i < CFG_TUH_HID; i++) {
if (_hidh_itf[i].daddr == daddr) count++;
}
return count;
}
uint8_t tuh_hid_itf_get_total_count(void)
{
uint8_t tuh_hid_itf_get_total_count(void) {
uint8_t count = 0;
for(uint8_t i=0; i<CFG_TUH_HID; i++)
{
for (uint8_t i = 0; i < CFG_TUH_HID; i++) {
if (_hidh_itf[i].daddr != 0) count++;
}
return count;
}
bool tuh_hid_mounted(uint8_t daddr, uint8_t idx)
{
bool tuh_hid_mounted(uint8_t daddr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
return p_hid != NULL;
TU_VERIFY(p_hid);
return p_hid->mounted;
}
bool tuh_hid_itf_get_info(uint8_t daddr, uint8_t idx, tuh_itf_info_t* info)
{
bool tuh_hid_itf_get_info(uint8_t daddr, uint8_t idx, tuh_itf_info_t* info) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid && info);
@@ -149,34 +130,30 @@ bool tuh_hid_itf_get_info(uint8_t daddr, uint8_t idx, tuh_itf_info_t* info)
// re-construct descriptor
tusb_desc_interface_t* desc = &info->desc;
desc->bLength = sizeof(tusb_desc_interface_t);
desc->bDescriptorType = TUSB_DESC_INTERFACE;
desc->bLength = sizeof(tusb_desc_interface_t);
desc->bDescriptorType = TUSB_DESC_INTERFACE;
desc->bInterfaceNumber = p_hid->itf_num;
desc->bAlternateSetting = 0;
desc->bNumEndpoints = (uint8_t) ((p_hid->ep_in ? 1u : 0u) + (p_hid->ep_out ? 1u : 0u));
desc->bInterfaceClass = TUSB_CLASS_HID;
desc->bInterfaceNumber = p_hid->itf_num;
desc->bAlternateSetting = 0;
desc->bNumEndpoints = (uint8_t) ((p_hid->ep_in ? 1u : 0u) + (p_hid->ep_out ? 1u : 0u));
desc->bInterfaceClass = TUSB_CLASS_HID;
desc->bInterfaceSubClass = (p_hid->itf_protocol ? HID_SUBCLASS_BOOT : HID_SUBCLASS_NONE);
desc->bInterfaceProtocol = p_hid->itf_protocol;
desc->iInterface = 0; // not used yet
desc->iInterface = 0; // not used yet
return true;
}
uint8_t tuh_hid_itf_get_index(uint8_t daddr, uint8_t itf_num)
{
for ( uint8_t idx = 0; idx < CFG_TUH_HID; idx++ )
{
hidh_interface_t const * p_hid = &_hidh_itf[idx];
if ( p_hid->daddr == daddr && p_hid->itf_num == itf_num) return idx;
uint8_t tuh_hid_itf_get_index(uint8_t daddr, uint8_t itf_num) {
for (uint8_t idx = 0; idx < CFG_TUH_HID; idx++) {
hidh_interface_t const* p_hid = &_hidh_itf[idx];
if (p_hid->daddr == daddr && p_hid->itf_num == itf_num) return idx;
}
return TUSB_INDEX_INVALID_8;
}
uint8_t tuh_hid_interface_protocol(uint8_t daddr, uint8_t idx)
{
uint8_t tuh_hid_interface_protocol(uint8_t daddr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
return p_hid ? p_hid->itf_protocol : 0;
}
@@ -184,150 +161,179 @@ uint8_t tuh_hid_interface_protocol(uint8_t daddr, uint8_t idx)
//--------------------------------------------------------------------+
// Control Endpoint API
//--------------------------------------------------------------------+
uint8_t tuh_hid_get_protocol(uint8_t daddr, uint8_t idx)
{
uint8_t tuh_hid_get_protocol(uint8_t daddr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
return p_hid ? p_hid->protocol_mode : 0;
}
static void set_protocol_complete(tuh_xfer_t* xfer)
{
static void set_protocol_complete(tuh_xfer_t* xfer) {
uint8_t const itf_num = (uint8_t) tu_le16toh(xfer->setup->wIndex);
uint8_t const daddr = xfer->daddr;
uint8_t const idx = tuh_hid_itf_get_index(daddr, itf_num);
uint8_t const daddr = xfer->daddr;
uint8_t const idx = tuh_hid_itf_get_index(daddr, itf_num);
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid, );
TU_VERIFY(p_hid,);
if (XFER_RESULT_SUCCESS == xfer->result)
{
if (XFER_RESULT_SUCCESS == xfer->result) {
p_hid->protocol_mode = (uint8_t) tu_le16toh(xfer->setup->wValue);
}
if (tuh_hid_set_protocol_complete_cb)
{
if (tuh_hid_set_protocol_complete_cb) {
tuh_hid_set_protocol_complete_cb(daddr, idx, p_hid->protocol_mode);
}
}
static bool _hidh_set_protocol(uint8_t daddr, uint8_t itf_num, uint8_t protocol, tuh_xfer_cb_t complete_cb, uintptr_t user_data)
{
void tuh_hid_set_default_protocol(uint8_t protocol) {
_hidh_default_protocol = protocol;
}
static bool _hidh_set_protocol(uint8_t daddr, uint8_t itf_num, uint8_t protocol,
tuh_xfer_cb_t complete_cb, uintptr_t user_data) {
TU_LOG_DRV("HID Set Protocol = %d\r\n", protocol);
tusb_control_request_t const request =
{
.bmRequestType_bit =
{
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_PROTOCOL,
.wValue = protocol,
.wIndex = itf_num,
.wLength = 0
tusb_control_request_t const request = {
.bmRequestType_bit = {
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_PROTOCOL,
.wValue = protocol,
.wIndex = itf_num,
.wLength = 0
};
tuh_xfer_t xfer =
{
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = NULL,
.complete_cb = complete_cb,
.user_data = user_data
tuh_xfer_t xfer = {
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = NULL,
.complete_cb = complete_cb,
.user_data = user_data
};
return tuh_control_xfer(&xfer);
}
bool tuh_hid_set_protocol(uint8_t daddr, uint8_t idx, uint8_t protocol)
{
bool tuh_hid_set_protocol(uint8_t daddr, uint8_t idx, uint8_t protocol) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid && p_hid->itf_protocol != HID_ITF_PROTOCOL_NONE);
return _hidh_set_protocol(daddr, p_hid->itf_num, protocol, set_protocol_complete, 0);
}
static void set_report_complete(tuh_xfer_t* xfer)
{
TU_LOG_DRV("HID Set Report complete\r\n");
static void get_report_complete(tuh_xfer_t* xfer) {
TU_LOG_DRV("HID Get Report complete\r\n");
if (tuh_hid_set_report_complete_cb)
{
if (tuh_hid_get_report_complete_cb) {
uint8_t const itf_num = (uint8_t) tu_le16toh(xfer->setup->wIndex);
uint8_t const idx = tuh_hid_itf_get_index(xfer->daddr, itf_num);
uint8_t const idx = tuh_hid_itf_get_index(xfer->daddr, itf_num);
uint8_t const report_type = tu_u16_high(xfer->setup->wValue);
uint8_t const report_id = tu_u16_low(xfer->setup->wValue);
uint8_t const report_id = tu_u16_low(xfer->setup->wValue);
tuh_hid_get_report_complete_cb(xfer->daddr, idx, report_id, report_type,
(xfer->result == XFER_RESULT_SUCCESS) ? xfer->setup->wLength : 0);
}
}
bool tuh_hid_get_report(uint8_t daddr, uint8_t idx, uint8_t report_id, uint8_t report_type, void* report, uint16_t len) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid);
TU_LOG_DRV("HID Get Report: id = %u, type = %u, len = %u\r\n", report_id, report_type, len);
tusb_control_request_t const request = {
.bmRequestType_bit = {
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_IN
},
.bRequest = HID_REQ_CONTROL_GET_REPORT,
.wValue = tu_htole16(tu_u16(report_type, report_id)),
.wIndex = tu_htole16((uint16_t) p_hid->itf_num),
.wLength = len
};
tuh_xfer_t xfer = {
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = report,
.complete_cb = get_report_complete,
.user_data = 0
};
return tuh_control_xfer(&xfer);
}
static void set_report_complete(tuh_xfer_t* xfer) {
TU_LOG_DRV("HID Set Report complete\r\n");
if (tuh_hid_set_report_complete_cb) {
uint8_t const itf_num = (uint8_t) tu_le16toh(xfer->setup->wIndex);
uint8_t const idx = tuh_hid_itf_get_index(xfer->daddr, itf_num);
uint8_t const report_type = tu_u16_high(xfer->setup->wValue);
uint8_t const report_id = tu_u16_low(xfer->setup->wValue);
tuh_hid_set_report_complete_cb(xfer->daddr, idx, report_id, report_type,
(xfer->result == XFER_RESULT_SUCCESS) ? xfer->setup->wLength : 0);
}
}
bool tuh_hid_set_report(uint8_t daddr, uint8_t idx, uint8_t report_id, uint8_t report_type, void* report, uint16_t len)
{
bool tuh_hid_set_report(uint8_t daddr, uint8_t idx, uint8_t report_id, uint8_t report_type, void* report, uint16_t len) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid);
TU_LOG_DRV("HID Set Report: id = %u, type = %u, len = %u\r\n", report_id, report_type, len);
tusb_control_request_t const request =
{
.bmRequestType_bit =
{
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_REPORT,
.wValue = tu_htole16(tu_u16(report_type, report_id)),
.wIndex = tu_htole16((uint16_t)p_hid->itf_num),
.wLength = len
tusb_control_request_t const request = {
.bmRequestType_bit = {
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_REPORT,
.wValue = tu_htole16(tu_u16(report_type, report_id)),
.wIndex = tu_htole16((uint16_t) p_hid->itf_num),
.wLength = len
};
tuh_xfer_t xfer =
{
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = report,
.complete_cb = set_report_complete,
.user_data = 0
tuh_xfer_t xfer = {
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = report,
.complete_cb = set_report_complete,
.user_data = 0
};
return tuh_control_xfer(&xfer);
}
static bool _hidh_set_idle(uint8_t daddr, uint8_t itf_num, uint16_t idle_rate, tuh_xfer_cb_t complete_cb, uintptr_t user_data)
{
static bool _hidh_set_idle(uint8_t daddr, uint8_t itf_num, uint16_t idle_rate,
tuh_xfer_cb_t complete_cb, uintptr_t user_data) {
// SET IDLE request, device can stall if not support this request
TU_LOG_DRV("HID Set Idle \r\n");
tusb_control_request_t const request =
{
.bmRequestType_bit =
{
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_IDLE,
.wValue = tu_htole16(idle_rate),
.wIndex = tu_htole16((uint16_t)itf_num),
.wLength = 0
tusb_control_request_t const request = {
.bmRequestType_bit = {
.recipient = TUSB_REQ_RCPT_INTERFACE,
.type = TUSB_REQ_TYPE_CLASS,
.direction = TUSB_DIR_OUT
},
.bRequest = HID_REQ_CONTROL_SET_IDLE,
.wValue = tu_htole16(idle_rate),
.wIndex = tu_htole16((uint16_t) itf_num),
.wLength = 0
};
tuh_xfer_t xfer =
{
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = NULL,
.complete_cb = complete_cb,
.user_data = user_data
tuh_xfer_t xfer = {
.daddr = daddr,
.ep_addr = 0,
.setup = &request,
.buffer = NULL,
.complete_cb = complete_cb,
.user_data = user_data
};
return tuh_control_xfer(&xfer);
@@ -338,68 +344,60 @@ static bool _hidh_set_idle(uint8_t daddr, uint8_t itf_num, uint16_t idle_rate, t
//--------------------------------------------------------------------+
// Check if HID interface is ready to receive report
bool tuh_hid_receive_ready(uint8_t dev_addr, uint8_t idx)
{
bool tuh_hid_receive_ready(uint8_t dev_addr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(dev_addr, idx);
TU_VERIFY(p_hid);
return !usbh_edpt_busy(dev_addr, p_hid->ep_in);
}
bool tuh_hid_receive_report(uint8_t daddr, uint8_t idx)
{
bool tuh_hid_receive_report(uint8_t daddr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid);
// claim endpoint
TU_VERIFY( usbh_edpt_claim(daddr, p_hid->ep_in) );
TU_VERIFY(usbh_edpt_claim(daddr, p_hid->ep_in));
if ( !usbh_edpt_xfer(daddr, p_hid->ep_in, p_hid->epin_buf, p_hid->epin_size) )
{
if (!usbh_edpt_xfer(daddr, p_hid->ep_in, p_hid->epin_buf, p_hid->epin_size)) {
usbh_edpt_release(daddr, p_hid->ep_in);
return false;
}
return true;
}
bool tuh_hid_send_ready(uint8_t dev_addr, uint8_t idx)
{
bool tuh_hid_receive_abort(uint8_t dev_addr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(dev_addr, idx);
TU_VERIFY(p_hid);
return tuh_edpt_abort_xfer(dev_addr, p_hid->ep_in);
}
bool tuh_hid_send_ready(uint8_t dev_addr, uint8_t idx) {
hidh_interface_t* p_hid = get_hid_itf(dev_addr, idx);
TU_VERIFY(p_hid);
return !usbh_edpt_busy(dev_addr, p_hid->ep_out);
}
bool tuh_hid_send_report(uint8_t daddr, uint8_t idx, uint8_t report_id, const void* report, uint16_t len)
{
bool tuh_hid_send_report(uint8_t daddr, uint8_t idx, uint8_t report_id, const void* report, uint16_t len) {
TU_LOG_DRV("HID Send Report %d\r\n", report_id);
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid);
if (p_hid->ep_out == 0)
{
if (p_hid->ep_out == 0) {
// This HID does not have an out endpoint (other than control)
return false;
}
else if (len > CFG_TUH_HID_EPOUT_BUFSIZE ||
(report_id != 0 && len > (CFG_TUH_HID_EPOUT_BUFSIZE - 1)))
{
} else if (len > CFG_TUH_HID_EPOUT_BUFSIZE ||
(report_id != 0 && len > (CFG_TUH_HID_EPOUT_BUFSIZE - 1))) {
// ep_out buffer is not large enough to hold contents
return false;
}
// claim endpoint
TU_VERIFY( usbh_edpt_claim(daddr, p_hid->ep_out) );
TU_VERIFY(usbh_edpt_claim(daddr, p_hid->ep_out));
if (report_id == 0)
{
if (report_id == 0) {
// No report ID in transmission
memcpy(&p_hid->epout_buf[0], report, len);
}
else
{
} else {
p_hid->epout_buf[0] = report_id;
memcpy(&p_hid->epout_buf[1], report, len);
++len; // 1 more byte for report_id
@@ -407,8 +405,7 @@ bool tuh_hid_send_report(uint8_t daddr, uint8_t idx, uint8_t report_id, const vo
TU_LOG3_MEM(p_hid->epout_buf, len, 2);
if ( !usbh_edpt_xfer(daddr, p_hid->ep_out, p_hid->epout_buf, len) )
{
if (!usbh_edpt_xfer(daddr, p_hid->ep_out, p_hid->epout_buf, len)) {
usbh_edpt_release(daddr, p_hid->ep_out);
return false;
}
@@ -419,13 +416,17 @@ bool tuh_hid_send_report(uint8_t daddr, uint8_t idx, uint8_t report_id, const vo
//--------------------------------------------------------------------+
// USBH API
//--------------------------------------------------------------------+
void hidh_init(void)
{
bool hidh_init(void) {
TU_LOG_DRV("sizeof(hidh_interface_t) = %u\r\n", sizeof(hidh_interface_t));
tu_memclr(_hidh_itf, sizeof(_hidh_itf));
return true;
}
bool hidh_xfer_cb(uint8_t daddr, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes)
{
bool hidh_deinit(void) {
return true;
}
bool hidh_xfer_cb(uint8_t daddr, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes) {
(void) result;
uint8_t const dir = tu_edpt_dir(ep_addr);
@@ -434,29 +435,26 @@ bool hidh_xfer_cb(uint8_t daddr, uint8_t ep_addr, xfer_result_t result, uint32_t
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid);
if ( dir == TUSB_DIR_IN )
{
if (dir == TUSB_DIR_IN) {
TU_LOG_DRV(" Get Report callback (%u, %u)\r\n", daddr, idx);
TU_LOG3_MEM(p_hid->epin_buf, xferred_bytes, 2);
tuh_hid_report_received_cb(daddr, idx, p_hid->epin_buf, (uint16_t) xferred_bytes);
}else
{
if (tuh_hid_report_sent_cb) tuh_hid_report_sent_cb(daddr, idx, p_hid->epout_buf, (uint16_t) xferred_bytes);
} else {
if (tuh_hid_report_sent_cb) {
tuh_hid_report_sent_cb(daddr, idx, p_hid->epout_buf, (uint16_t) xferred_bytes);
}
}
return true;
}
void hidh_close(uint8_t daddr)
{
for(uint8_t i=0; i<CFG_TUH_HID; i++)
{
void hidh_close(uint8_t daddr) {
for (uint8_t i = 0; i < CFG_TUH_HID; i++) {
hidh_interface_t* p_hid = &_hidh_itf[i];
if (p_hid->daddr == daddr)
{
if (p_hid->daddr == daddr) {
TU_LOG_DRV(" HIDh close addr = %u index = %u\r\n", daddr, i);
if(tuh_hid_umount_cb) tuh_hid_umount_cb(daddr, i);
p_hid->daddr = 0;
if (tuh_hid_umount_cb) tuh_hid_umount_cb(daddr, i);
tu_memclr(p_hid, sizeof(hidh_interface_t));
}
}
}
@@ -465,25 +463,22 @@ void hidh_close(uint8_t daddr)
// Enumeration
//--------------------------------------------------------------------+
bool hidh_open(uint8_t rhport, uint8_t daddr, tusb_desc_interface_t const *desc_itf, uint16_t max_len)
{
bool hidh_open(uint8_t rhport, uint8_t daddr, tusb_desc_interface_t const* desc_itf, uint16_t max_len) {
(void) rhport;
(void) max_len;
TU_VERIFY(TUSB_CLASS_HID == desc_itf->bInterfaceClass);
TU_LOG_DRV("[%u] HID opening Interface %u\r\n", daddr, desc_itf->bInterfaceNumber);
// len = interface + hid + n*endpoints
uint16_t const drv_len = (uint16_t) (sizeof(tusb_desc_interface_t) + sizeof(tusb_hid_descriptor_hid_t) +
desc_itf->bNumEndpoints * sizeof(tusb_desc_endpoint_t));
TU_ASSERT(max_len >= drv_len);
uint8_t const *p_desc = (uint8_t const *) desc_itf;
uint8_t const* p_desc = (uint8_t const*) desc_itf;
//------------- HID descriptor -------------//
p_desc = tu_desc_next(p_desc);
tusb_hid_descriptor_hid_t const *desc_hid = (tusb_hid_descriptor_hid_t const *) p_desc;
tusb_hid_descriptor_hid_t const* desc_hid = (tusb_hid_descriptor_hid_t const*) p_desc;
TU_ASSERT(HID_DESC_TYPE_HID == desc_hid->bDescriptorType);
hidh_interface_t* p_hid = find_new_itf();
@@ -492,38 +487,33 @@ bool hidh_open(uint8_t rhport, uint8_t daddr, tusb_desc_interface_t const *desc_
//------------- Endpoint Descriptors -------------//
p_desc = tu_desc_next(p_desc);
tusb_desc_endpoint_t const * desc_ep = (tusb_desc_endpoint_t const *) p_desc;
tusb_desc_endpoint_t const* desc_ep = (tusb_desc_endpoint_t const*) p_desc;
for(int i = 0; i < desc_itf->bNumEndpoints; i++)
{
for (int i = 0; i < desc_itf->bNumEndpoints; i++) {
TU_ASSERT(TUSB_DESC_ENDPOINT == desc_ep->bDescriptorType);
TU_ASSERT( tuh_edpt_open(daddr, desc_ep) );
TU_ASSERT(tuh_edpt_open(daddr, desc_ep));
if(tu_edpt_dir(desc_ep->bEndpointAddress) == TUSB_DIR_IN)
{
p_hid->ep_in = desc_ep->bEndpointAddress;
if (tu_edpt_dir(desc_ep->bEndpointAddress) == TUSB_DIR_IN) {
p_hid->ep_in = desc_ep->bEndpointAddress;
p_hid->epin_size = tu_edpt_packet_size(desc_ep);
}
else
{
p_hid->ep_out = desc_ep->bEndpointAddress;
} else {
p_hid->ep_out = desc_ep->bEndpointAddress;
p_hid->epout_size = tu_edpt_packet_size(desc_ep);
}
p_desc = tu_desc_next(p_desc);
desc_ep = (tusb_desc_endpoint_t const *) p_desc;
desc_ep = (tusb_desc_endpoint_t const*) p_desc;
}
p_hid->itf_num = desc_itf->bInterfaceNumber;
p_hid->itf_num = desc_itf->bInterfaceNumber;
// Assume bNumDescriptors = 1
p_hid->report_desc_type = desc_hid->bReportType;
p_hid->report_desc_len = tu_unaligned_read16(&desc_hid->wReportLength);
p_hid->report_desc_len = tu_unaligned_read16(&desc_hid->wReportLength);
// Per HID Specs: default is Report protocol, though we will force Boot protocol when set_config
p_hid->protocol_mode = HID_PROTOCOL_BOOT;
if ( HID_SUBCLASS_BOOT == desc_itf->bInterfaceSubClass )
{
p_hid->protocol_mode = _hidh_default_protocol;
if (HID_SUBCLASS_BOOT == desc_itf->bInterfaceSubClass) {
p_hid->itf_protocol = desc_itf->bInterfaceProtocol;
}
@@ -544,15 +534,14 @@ enum {
static void config_driver_mount_complete(uint8_t daddr, uint8_t idx, uint8_t const* desc_report, uint16_t desc_len);
static void process_set_config(tuh_xfer_t* xfer);
bool hidh_set_config(uint8_t daddr, uint8_t itf_num)
{
bool hidh_set_config(uint8_t daddr, uint8_t itf_num) {
tusb_control_request_t request;
request.wIndex = tu_htole16((uint16_t) itf_num);
tuh_xfer_t xfer;
xfer.daddr = daddr;
xfer.result = XFER_RESULT_SUCCESS;
xfer.setup = &request;
xfer.daddr = daddr;
xfer.result = XFER_RESULT_SUCCESS;
xfer.setup = &request;
xfer.user_data = CONFG_SET_IDLE;
// fake request to kick-off the set config process
@@ -561,71 +550,68 @@ bool hidh_set_config(uint8_t daddr, uint8_t itf_num)
return true;
}
static void process_set_config(tuh_xfer_t* xfer)
{
static void process_set_config(tuh_xfer_t* xfer) {
// Stall is a valid response for SET_IDLE, sometime SET_PROTOCOL as well
// therefore we could ignore its result
if ( !(xfer->setup->bRequest == HID_REQ_CONTROL_SET_IDLE ||
xfer->setup->bRequest == HID_REQ_CONTROL_SET_PROTOCOL) )
{
TU_ASSERT(xfer->result == XFER_RESULT_SUCCESS, );
if (!(xfer->setup->bRequest == HID_REQ_CONTROL_SET_IDLE ||
xfer->setup->bRequest == HID_REQ_CONTROL_SET_PROTOCOL)) {
TU_ASSERT(xfer->result == XFER_RESULT_SUCCESS,);
}
uintptr_t const state = xfer->user_data;
uint8_t const itf_num = (uint8_t) tu_le16toh(xfer->setup->wIndex);
uint8_t const daddr = xfer->daddr;
uint8_t const daddr = xfer->daddr;
uint8_t const idx = tuh_hid_itf_get_index(daddr, itf_num);
uint8_t const idx = tuh_hid_itf_get_index(daddr, itf_num);
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid, );
TU_VERIFY(p_hid,);
switch(state)
{
case CONFG_SET_IDLE:
{
switch (state) {
case CONFG_SET_IDLE: {
// Idle rate = 0 mean only report when there is changes
const uint16_t idle_rate = 0;
const uintptr_t next_state = (p_hid->itf_protocol != HID_ITF_PROTOCOL_NONE) ? CONFIG_SET_PROTOCOL : CONFIG_GET_REPORT_DESC;
const uintptr_t next_state = (p_hid->itf_protocol != HID_ITF_PROTOCOL_NONE)
? CONFIG_SET_PROTOCOL : CONFIG_GET_REPORT_DESC;
_hidh_set_idle(daddr, itf_num, idle_rate, process_set_config, next_state);
break;
}
break;
case CONFIG_SET_PROTOCOL:
_hidh_set_protocol(daddr, p_hid->itf_num, HID_PROTOCOL_BOOT, process_set_config, CONFIG_GET_REPORT_DESC);
break;
_hidh_set_protocol(daddr, p_hid->itf_num, _hidh_default_protocol, process_set_config, CONFIG_GET_REPORT_DESC);
break;
case CONFIG_GET_REPORT_DESC:
// Get Report Descriptor if possible
// using usbh enumeration buffer since report descriptor can be very long
if( p_hid->report_desc_len > CFG_TUH_ENUMERATION_BUFSIZE )
{
if (p_hid->report_desc_len > CFG_TUH_ENUMERATION_BUFSIZE) {
TU_LOG_DRV("HID Skip Report Descriptor since it is too large %u bytes\r\n", p_hid->report_desc_len);
// Driver is mounted without report descriptor
config_driver_mount_complete(daddr, idx, NULL, 0);
}else
{
tuh_descriptor_get_hid_report(daddr, itf_num, p_hid->report_desc_type, 0, usbh_get_enum_buf(), p_hid->report_desc_len, process_set_config, CONFIG_COMPLETE);
} else {
tuh_descriptor_get_hid_report(daddr, itf_num, p_hid->report_desc_type, 0,
usbh_get_enum_buf(), p_hid->report_desc_len,
process_set_config, CONFIG_COMPLETE);
}
break;
case CONFIG_COMPLETE:
{
case CONFIG_COMPLETE: {
uint8_t const* desc_report = usbh_get_enum_buf();
uint16_t const desc_len = tu_le16toh(xfer->setup->wLength);
uint16_t const desc_len = tu_le16toh(xfer->setup->wLength);
config_driver_mount_complete(daddr, idx, desc_report, desc_len);
break;
}
break;
default: break;
default:
break;
}
}
static void config_driver_mount_complete(uint8_t daddr, uint8_t idx, uint8_t const* desc_report, uint16_t desc_len)
{
static void config_driver_mount_complete(uint8_t daddr, uint8_t idx, uint8_t const* desc_report, uint16_t desc_len) {
hidh_interface_t* p_hid = get_hid_itf(daddr, idx);
TU_VERIFY(p_hid, );
TU_VERIFY(p_hid,);
p_hid->mounted = true;
// enumeration is complete
if (tuh_hid_mount_cb) tuh_hid_mount_cb(daddr, idx, desc_report, desc_len);
@@ -638,21 +624,19 @@ static void config_driver_mount_complete(uint8_t daddr, uint8_t idx, uint8_t con
// Report Descriptor Parser
//--------------------------------------------------------------------+
uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* report_info_arr, uint8_t arr_count, uint8_t const* desc_report, uint16_t desc_len)
{
uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* report_info_arr, uint8_t arr_count,
uint8_t const* desc_report, uint16_t desc_len) {
// Report Item 6.2.2.2 USB HID 1.11
union TU_ATTR_PACKED
{
union TU_ATTR_PACKED {
uint8_t byte;
struct TU_ATTR_PACKED
{
uint8_t size : 2;
uint8_t type : 2;
uint8_t tag : 4;
struct TU_ATTR_PACKED {
uint8_t size : 2;
uint8_t type : 2;
uint8_t tag : 4;
};
} header;
tu_memclr(report_info_arr, arr_count*sizeof(tuh_hid_report_info_t));
tu_memclr(report_info_arr, arr_count * sizeof(tuh_hid_report_info_t));
uint8_t report_num = 0;
tuh_hid_report_info_t* info = report_info_arr;
@@ -662,114 +646,105 @@ uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* report_info_arr,
// uint8_t ri_report_size = 0;
uint8_t ri_collection_depth = 0;
while(desc_len && report_num < arr_count)
{
while (desc_len && report_num < arr_count) {
header.byte = *desc_report++;
desc_len--;
uint8_t const tag = header.tag;
uint8_t const tag = header.tag;
uint8_t const type = header.type;
uint8_t const size = header.size;
uint8_t const data8 = desc_report[0];
TU_LOG(3, "tag = %d, type = %d, size = %d, data = ", tag, type, size);
for(uint32_t i=0; i<size; i++) TU_LOG(3, "%02X ", desc_report[i]);
for (uint32_t i = 0; i < size; i++) TU_LOG(3, "%02X ", desc_report[i]);
TU_LOG(3, "\r\n");
switch(type)
{
switch (type) {
case RI_TYPE_MAIN:
switch (tag)
{
switch (tag) {
case RI_MAIN_INPUT: break;
case RI_MAIN_OUTPUT: break;
case RI_MAIN_FEATURE: break;
case RI_MAIN_COLLECTION:
ri_collection_depth++;
break;
break;
case RI_MAIN_COLLECTION_END:
ri_collection_depth--;
if (ri_collection_depth == 0)
{
if (ri_collection_depth == 0) {
info++;
report_num++;
}
break;
break;
default: break;
default:break;
}
break;
break;
case RI_TYPE_GLOBAL:
switch(tag)
{
switch (tag) {
case RI_GLOBAL_USAGE_PAGE:
// only take in account the "usage page" before REPORT ID
if ( ri_collection_depth == 0 ) memcpy(&info->usage_page, desc_report, size);
break;
if (ri_collection_depth == 0) memcpy(&info->usage_page, desc_report, size);
break;
case RI_GLOBAL_LOGICAL_MIN : break;
case RI_GLOBAL_LOGICAL_MAX : break;
case RI_GLOBAL_PHYSICAL_MIN : break;
case RI_GLOBAL_PHYSICAL_MAX : break;
case RI_GLOBAL_LOGICAL_MIN: break;
case RI_GLOBAL_LOGICAL_MAX: break;
case RI_GLOBAL_PHYSICAL_MIN: break;
case RI_GLOBAL_PHYSICAL_MAX: break;
case RI_GLOBAL_REPORT_ID:
info->report_id = data8;
break;
break;
case RI_GLOBAL_REPORT_SIZE:
// ri_report_size = data8;
break;
break;
case RI_GLOBAL_REPORT_COUNT:
// ri_report_count = data8;
break;
break;
case RI_GLOBAL_UNIT_EXPONENT : break;
case RI_GLOBAL_UNIT : break;
case RI_GLOBAL_PUSH : break;
case RI_GLOBAL_POP : break;
case RI_GLOBAL_UNIT_EXPONENT: break;
case RI_GLOBAL_UNIT: break;
case RI_GLOBAL_PUSH: break;
case RI_GLOBAL_POP: break;
default: break;
}
break;
break;
case RI_TYPE_LOCAL:
switch(tag)
{
switch (tag) {
case RI_LOCAL_USAGE:
// only take in account the "usage" before starting REPORT ID
if ( ri_collection_depth == 0 ) info->usage = data8;
break;
if (ri_collection_depth == 0) info->usage = data8;
break;
case RI_LOCAL_USAGE_MIN : break;
case RI_LOCAL_USAGE_MAX : break;
case RI_LOCAL_DESIGNATOR_INDEX : break;
case RI_LOCAL_DESIGNATOR_MIN : break;
case RI_LOCAL_DESIGNATOR_MAX : break;
case RI_LOCAL_STRING_INDEX : break;
case RI_LOCAL_STRING_MIN : break;
case RI_LOCAL_STRING_MAX : break;
case RI_LOCAL_DELIMITER : break;
case RI_LOCAL_USAGE_MIN: break;
case RI_LOCAL_USAGE_MAX: break;
case RI_LOCAL_DESIGNATOR_INDEX: break;
case RI_LOCAL_DESIGNATOR_MIN: break;
case RI_LOCAL_DESIGNATOR_MAX: break;
case RI_LOCAL_STRING_INDEX: break;
case RI_LOCAL_STRING_MIN: break;
case RI_LOCAL_STRING_MAX: break;
case RI_LOCAL_DELIMITER: break;
default: break;
}
break;
break;
// error
// error
default: break;
}
desc_report += size;
desc_len -= size;
desc_len -= size;
}
for ( uint8_t i = 0; i < report_num; i++ )
{
info = report_info_arr+i;
for (uint8_t i = 0; i < report_num; i++) {
info = report_info_arr + i;
TU_LOG_DRV("%u: id = %u, usage_page = %u, usage = %u\r\n", i, info->report_id, info->usage_page, info->usage);
}

41
src/class/hid/hid_host.h
View File

@@ -30,7 +30,7 @@
#include "hid.h"
#ifdef __cplusplus
extern "C" {
extern "C" {
#endif
//--------------------------------------------------------------------+
@@ -47,10 +47,9 @@
#endif
typedef struct
{
uint8_t report_id;
uint8_t usage;
typedef struct {
uint8_t report_id;
uint8_t usage;
uint16_t usage_page;
// TODO still use the endpoint size for now
@@ -86,7 +85,8 @@ bool tuh_hid_mounted(uint8_t dev_addr, uint8_t idx);
// Parse report descriptor into array of report_info struct and return number of reports.
// For complicated report, application should write its own parser.
uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* reports_info_arr, uint8_t arr_count, uint8_t const* desc_report, uint16_t desc_len) TU_ATTR_UNUSED;
TU_ATTR_UNUSED uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* reports_info_arr, uint8_t arr_count,
uint8_t const* desc_report, uint16_t desc_len);
//--------------------------------------------------------------------+
// Control Endpoint API
@@ -97,13 +97,22 @@ uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* reports_info_arr,
// Application can use set_protocol() to switch back to Report protocol.
uint8_t tuh_hid_get_protocol(uint8_t dev_addr, uint8_t idx);
// Device by default is enumerated in Boot protocol for simplicity. Application
// can use this to modify the default protocol for next enumeration.
void tuh_hid_set_default_protocol(uint8_t protocol);
// Set protocol to HID_PROTOCOL_BOOT (0) or HID_PROTOCOL_REPORT (1)
// This function is only supported by Boot interface (tuh_n_hid_interface_protocol() != NONE)
bool tuh_hid_set_protocol(uint8_t dev_addr, uint8_t idx, uint8_t protocol);
// Get Report using control endpoint
// report_type is either Input, Output or Feature, (value from hid_report_type_t)
bool tuh_hid_get_report(uint8_t dev_addr, uint8_t idx, uint8_t report_id, uint8_t report_type, void* report, uint16_t len);
// Set Report using control endpoint
// report_type is either Input, Output or Feature, (value from hid_report_type_t)
bool tuh_hid_set_report(uint8_t dev_addr, uint8_t idx, uint8_t report_id, uint8_t report_type, void* report, uint16_t len);
bool tuh_hid_set_report(uint8_t dev_addr, uint8_t idx, uint8_t report_id, uint8_t report_type,
void* report, uint16_t len);
//--------------------------------------------------------------------+
// Interrupt Endpoint API
@@ -117,6 +126,9 @@ bool tuh_hid_receive_ready(uint8_t dev_addr, uint8_t idx);
// - false if failed to queue the transfer e.g endpoint is busy
bool tuh_hid_receive_report(uint8_t dev_addr, uint8_t idx);
// Abort receiving report on Interrupt Endpoint
bool tuh_hid_receive_abort(uint8_t dev_addr, uint8_t idx);
// Check if HID interface is ready to send report
bool tuh_hid_send_ready(uint8_t dev_addr, uint8_t idx);
@@ -145,6 +157,10 @@ void tuh_hid_report_received_cb(uint8_t dev_addr, uint8_t idx, uint8_t const* re
// Invoked when sent report to device successfully via interrupt endpoint
TU_ATTR_WEAK void tuh_hid_report_sent_cb(uint8_t dev_addr, uint8_t idx, uint8_t const* report, uint16_t len);
// Invoked when Get Report to device via either control endpoint
// len = 0 indicate there is error in the transfer e.g stalled response
TU_ATTR_WEAK void tuh_hid_get_report_complete_cb(uint8_t dev_addr, uint8_t idx, uint8_t report_id, uint8_t report_type, uint16_t len);
// Invoked when Sent Report to device via either control endpoint
// len = 0 indicate there is error in the transfer e.g stalled response
TU_ATTR_WEAK void tuh_hid_set_report_complete_cb(uint8_t dev_addr, uint8_t idx, uint8_t report_id, uint8_t report_type, uint16_t len);
@@ -155,11 +171,12 @@ TU_ATTR_WEAK void tuh_hid_set_protocol_complete_cb(uint8_t dev_addr, uint8_t idx
//--------------------------------------------------------------------+
// Internal Class Driver API
//--------------------------------------------------------------------+
void hidh_init (void);
bool hidh_open (uint8_t rhport, uint8_t dev_addr, tusb_desc_interface_t const *desc_itf, uint16_t max_len);
bool hidh_set_config (uint8_t dev_addr, uint8_t itf_num);
bool hidh_xfer_cb (uint8_t dev_addr, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes);
void hidh_close (uint8_t dev_addr);
bool hidh_init(void);
bool hidh_deinit(void);
bool hidh_open(uint8_t rhport, uint8_t dev_addr, tusb_desc_interface_t const* desc_itf, uint16_t max_len);
bool hidh_set_config(uint8_t dev_addr, uint8_t itf_num);
bool hidh_xfer_cb(uint8_t dev_addr, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes);
void hidh_close(uint8_t dev_addr);
#ifdef __cplusplus
}